Core-compact space

In general topology and related branches of mathematics, a core-compact topological space ${\displaystyle X}$ is a topological space whose partially ordered set of open subsets is a continuous poset.^[1] Equivalently, ${\displaystyle X}$ is core-compact if it is exponentiable in the category Top of topological spaces.^[1][2][3] Expanding the definition of an exponential object, this means that for any ${\displaystyle Y}$, the set of continuous functions ${\displaystyle {\mathcal {C}}(X,Y)}$ has a topology such that function application is a unique continuous function from ${\displaystyle X\times {\mathcal {C}}(X,Y)}$ to ${\displaystyle Y}$, which is given by the Compact-open topology and is the most general way to define it.^[4]

Another equivalent concrete definition is that every neighborhood ${\displaystyle U}$ of a point ${\displaystyle x}$ contains a neighborhood ${\displaystyle V}$ of ${\displaystyle x}$ whose closure in ${\displaystyle U}$ is compact.^[1] As a result, every (weakly) locally compact space is core-compact, and every Hausdorff (or more generally, sober^[4]) core-compact space is locally compact, so the definition is a slight weakening of the definition of a locally compact space in the non-Hausdorff case.

See also

• Locally compact space

References

1. "Core-compact space". Encyclopedia of mathematics.
2. Gierz, Gerhard; Hofmann, Karl; Keimel, Klaus; Lawson, Jimmie; Mislove, Michael; Scott, Dana S. (2003). Continuous lattices and domains. Encyclopedia of Mathematics and Its Applications. Vol. 93. Cambridge: Cambridge University Press. doi:10.1017/CBO9780511542725. ISBN 978-0-521-80338-0. MR 1975381. S2CID 118338851. Zbl 1088.06001.
3. Exponential law for spaces. at the nLab
4. Vladimir Sotirov. "The compact-open topology: what is it really?" (PDF).

Further reading

• "core-compact but not locally compact". Stack Exchange. June 20, 2016.